#pragma once ///@file #include "util.hh" #include "path.hh" #include "outputs-spec.hh" #include "comparator.hh" #include #include namespace nix { class Store; /** * An opaque derived path. * * Opaque derived paths are just store paths, and fully evaluated. They * cannot be simplified further. Since they are opaque, they cannot be * built, but they can fetched. */ struct DerivedPathOpaque { StorePath path; std::string to_string(const Store & store) const; static DerivedPathOpaque parse(const Store & store, std::string_view); nlohmann::json toJSON(const Store & store) const; GENERATE_CMP(DerivedPathOpaque, me->path); }; struct SingleDerivedPath; /** * A single derived path that is built from a derivation * * Built derived paths are pair of a derivation and an output name. They are * evaluated by building the derivation, and then taking the resulting output * path of the given output name. */ struct SingleDerivedPathBuilt { ref drvPath; std::string output; /** * Get the store path this is ultimately derived from (by realising * and projecting outputs). * * Note that this is *not* a property of the store object being * referred to, but just of this path --- how we happened to be * referring to that store object. In other words, this means this * function breaks "referential transparency". It should therefore * be used only with great care. */ const StorePath & getBaseStorePath() const; /** * Uses `^` as the separator */ std::string to_string(const Store & store) const; /** * Uses `!` as the separator */ std::string to_string_legacy(const Store & store) const; /** * The caller splits on the separator, so it works for both variants. * * @param xpSettings Stop-gap to avoid globals during unit tests. */ static SingleDerivedPathBuilt parse( const Store & store, ref drvPath, std::string_view outputs, const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings); nlohmann::json toJSON(Store & store) const; DECLARE_CMP(SingleDerivedPathBuilt); }; using _SingleDerivedPathRaw = std::variant< DerivedPathOpaque, SingleDerivedPathBuilt >; /** * A "derived path" is a very simple sort of expression (not a Nix * language expression! But an expression in a the general sense) that * evaluates to (concrete) store path. It is either: * * - opaque, in which case it is just a concrete store path with * possibly no known derivation * * - built, in which case it is a pair of a derivation path and an * output name. */ struct SingleDerivedPath : _SingleDerivedPathRaw { using Raw = _SingleDerivedPathRaw; using Raw::Raw; using Opaque = DerivedPathOpaque; using Built = SingleDerivedPathBuilt; inline const Raw & raw() const { return static_cast(*this); } /** * Get the store path this is ultimately derived from (by realising * and projecting outputs). * * Note that this is *not* a property of the store object being * referred to, but just of this path --- how we happened to be * referring to that store object. In other words, this means this * function breaks "referential transparency". It should therefore * be used only with great care. */ const StorePath & getBaseStorePath() const; /** * Uses `^` as the separator */ std::string to_string(const Store & store) const; /** * Uses `!` as the separator */ std::string to_string_legacy(const Store & store) const; /** * Uses `^` as the separator * * @param xpSettings Stop-gap to avoid globals during unit tests. */ static SingleDerivedPath parse( const Store & store, std::string_view, const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings); /** * Uses `!` as the separator * * @param xpSettings Stop-gap to avoid globals during unit tests. */ static SingleDerivedPath parseLegacy( const Store & store, std::string_view, const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings); nlohmann::json toJSON(Store & store) const; }; static inline ref makeConstantStorePathRef(StorePath drvPath) { return make_ref(SingleDerivedPath::Opaque { drvPath }); } /** * A set of derived paths that are built from a derivation * * Built derived paths are pair of a derivation and some output names. * They are evaluated by building the derivation, and then replacing the * output names with the resulting outputs. * * Note that does mean a derived store paths evaluates to multiple * opaque paths, which is sort of icky as expressions are supposed to * evaluate to single values. Perhaps this should have just a single * output name. */ struct DerivedPathBuilt { ref drvPath; OutputsSpec outputs; /** * Get the store path this is ultimately derived from (by realising * and projecting outputs). * * Note that this is *not* a property of the store object being * referred to, but just of this path --- how we happened to be * referring to that store object. In other words, this means this * function breaks "referential transparency". It should therefore * be used only with great care. */ const StorePath & getBaseStorePath() const; /** * Uses `^` as the separator */ std::string to_string(const Store & store) const; /** * Uses `!` as the separator */ std::string to_string_legacy(const Store & store) const; /** * The caller splits on the separator, so it works for both variants. * * @param xpSettings Stop-gap to avoid globals during unit tests. */ static DerivedPathBuilt parse( const Store & store, ref, std::string_view, const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings); nlohmann::json toJSON(Store & store) const; DECLARE_CMP(DerivedPathBuilt); }; using _DerivedPathRaw = std::variant< DerivedPathOpaque, DerivedPathBuilt >; /** * A "derived path" is a very simple sort of expression that evaluates * to one or more (concrete) store paths. It is either: * * - opaque, in which case it is just a single concrete store path with * possibly no known derivation * * - built, in which case it is a pair of a derivation path and some * output names. */ struct DerivedPath : _DerivedPathRaw { using Raw = _DerivedPathRaw; using Raw::Raw; using Opaque = DerivedPathOpaque; using Built = DerivedPathBuilt; inline const Raw & raw() const { return static_cast(*this); } /** * Get the store path this is ultimately derived from (by realising * and projecting outputs). * * Note that this is *not* a property of the store object being * referred to, but just of this path --- how we happened to be * referring to that store object. In other words, this means this * function breaks "referential transparency". It should therefore * be used only with great care. */ const StorePath & getBaseStorePath() const; /** * Uses `^` as the separator */ std::string to_string(const Store & store) const; /** * Uses `!` as the separator */ std::string to_string_legacy(const Store & store) const; /** * Uses `^` as the separator * * @param xpSettings Stop-gap to avoid globals during unit tests. */ static DerivedPath parse( const Store & store, std::string_view, const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings); /** * Uses `!` as the separator * * @param xpSettings Stop-gap to avoid globals during unit tests. */ static DerivedPath parseLegacy( const Store & store, std::string_view, const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings); /** * Convert a `SingleDerivedPath` to a `DerivedPath`. */ static DerivedPath fromSingle(const SingleDerivedPath &); nlohmann::json toJSON(Store & store) const; }; typedef std::vector DerivedPaths; /** * Used by various parser functions to require experimental features as * needed. * * Somewhat unfortunate this cannot just be an implementation detail for * this module. * * @param xpSettings Stop-gap to avoid globals during unit tests. */ void drvRequireExperiment( const SingleDerivedPath & drv, const ExperimentalFeatureSettings & xpSettings = experimentalFeatureSettings); }